CN1213829C

CN1213829C - Tool with clamped cutting tip and its assembling method

Info

Publication number: CN1213829C
Application number: CNB011422394A
Authority: CN
Inventors: 白岩秋男
Original assignee: Sandvik AB
Current assignee: Sandvik AB
Priority date: 2000-10-11
Filing date: 2001-09-25
Publication date: 2005-08-10
Anticipated expiration: 2021-09-25
Also published as: DE60128767T2; EP1197281A1; PL350063A1; EP1197281B1; ATE363956T1; KR100855072B1; PL196677B1; US6579042B1; CN1368416A; JP2002160117A; KR20020028817A; DE60128767D1

Abstract

Cutting inserts are assembled around the periphery of a holder of a tool by respective fastening screws. Each insert is seated against a support surface, and its respective fastening screw passes through a center hole in the insert and is threaded into a mounting hole formed in the support surface. The mounting hole is oriented non-perpendicularly to the support surface, whereby the fastening screw forms an angle with the axis of the insert's through-hole and is more accessible to a screwdriver. The through-hole has a conical or spherical portion which supports a spherical head of the fastening screw.

Description

Have the tool bodies and the assemble method thereof that cut insert chip

Technical field

The present invention relates to cut insert chip, a kind of method of cutting insert chip and tool bodies of assembling of on tool bodies, assembling.

Background technology

What illustrate among Fig. 1 and 2 is a traditional milling cutter, and this milling cutter comprises a rotation cramping body 1 with several circular insert seats 2 at interval.Be installed in the insert seat is the Turable cutting insert chip 3 that has adjustable pad 4.Cutting tip 3 and pad (if being mounted) are clamped on the corresponding position by the hold-down screw 5 that extends through the hole of processing in insert chip and pad.Hold-down screw contacts with screwed hole 6 screw threads of processing on support surface 7, and extend perpendicular to surface 7 separately in hole 6.For example, a such milling cutter is at United States Patent (USP) 5,871, is disclosed in 309.

For trip bolt, need in the cavity of processing, insert a throw at head of screw.We will know from Fig. 2 that the central axis of screw almost intersects with the radially outer edge 10 of processing on a surface 12 of the recess 14 of the front of each insert seat 2.This has hindered the insertion of a throw, and requires special throw, this instrument to have to be used to avoid the long tip of the interference of 10 pairs of handle for tool of edge.

Therefore, it is desirable that a kind of mount scheme with cutting insert chip of trip bolt is provided, this screw not only can get rapidly, and is 360 degree with the wall of insert chip through hole and contact but and to promote simultaneously insert chip backward and lean against on the stayed surface and to side promotion insert chip and lean against on the insert seating face.

In addition, it can be fixed on a cutting insert chip on its position separately ideally as much as possible, thereby insert chip will can not vibrate and collide with.Typical insert seat not only comprises a back stayed surface that is processed with the screw thread receiver hole on it, also comprises an abutment surface of holding up.By insert chip being pressed against simultaneously on back stayed surface and the abutment surface, the more stable and more difficult generation vibration of insert chip and colliding with.In this mode, diverse ways is suggested a hold-down screw can be pushed down insert chip in the method.For example, as U.S. Patent No. 6,053, disclosed in 671, a hold-down screw can be inserted into a screwed hole that extends perpendicularly in the stayed surface, but laid with respect to abutment surface, leaned against on the stayed surface, also promote insert chip and lean against on the abutment surface to the side thereby the part of head of screw not only will promote insert chip backward.

United States Patent (USP) 3,662, disclosed another kind of technology relates to the location with respect to stayed surface off plumb screwed hole in 444.Then, when hold-down screw was inserted in the central through hole of insert chip and the screwed hole, a conical surface on head of screw bias voltage insert chip backward leaned against on the stayed surface and to side bias voltage insert chip and leans against on the insert seating face.

With United States Patent (USP) 6,053, in 671 and 3,662,444 the relevant shortcoming of scheme of explanation be head of screw with the wall of the central through hole of insert chip be less than 360 spend contact, thereby limited the degree of the stability of the insert chip that can reach.

In U.S. Patent No. 5,199, disclose one under the condition of not removing hold-down screw in 828, be used to change the mount scheme of a rotation insert chip of insert chip.In order to reach this point, the centre bore of processing in insert chip has a maximum cross section greater than head of screw.For head of screw is fixed on insert chip on the corresponding position, the axis of screw tilts with respect to the axis of centre bore, thereby screw enters the back stayed surface with an inclination angle.This causes insert chip to be pushed against on the abutment surface by head of screw naturally.Head of screw contacts with the wall of centre bore on the opposite position of two diameters, i.e. contact between head of screw and insert chip is discontinuous, therefore can not maximize the stability of insert chip.

The present invention's general introduction

The present invention relates to a kind of cutter assembly, a kind of method that insert chip is cut in assembling on the tool-holder gripping member, and insert chip itself.

Cutter assembly comprises a tool-holder gripping member with an insert seat.The insert seat comprises an insert seating face, and one of them threaded mounting hole extends along a direction that favours the plane of insert seating face.A cutting insert chip is installed in the insert seat.Insert chip has a front surface and direction and is parallel to stayed surface behind of insert seating face.Insert chip has a through hole, and this through hole limits a central axis and comprises a preceding cavity that is arranged in the front surface of insert chip.Before cavity limit by a wall, at least this wall screw support section have a circular cross section and backward stayed surface be tapered.A hold-down screw extends through through hole, and comprises a threaded body part part, and the head of screw of an increasing simultaneously is placed in the cavity.Head of screw comprises the outer surface of the part of a structure such as ball, and this surface is 360 degree with the screw thread stayed surface of cavity wall and contacts.Threaded body partly is threaded in the installing hole.Head of screw and threaded body part are symmetric shape about the central axis of screw.The central axis of screw and the central axis of through hole form an acute angle.

Recommend the insert seat to comprise one from the outward extending abutment surface of seating face, threaded mounting hole is made screw apply on insert chip and has the power of a direction towards the component of abutment surface by so directed.

Recommend the central axis of screw on direction of rotation, to extend, and on direction, depart from the central axis of through hole away from rotation from screw.

The present invention also is adapted at installing on the insert seat method of cutting insert chip.

The present invention also is fit to cutting insert chip itself.

To brief description of drawings

Become clear in the detailed description of an objects and advantages of the present invention general preferred embodiment that links to each other with accompanying drawing hereinafter, identical in the accompanying drawings label is indicated components identical, and in the accompanying drawings:

Fig. 1 is the perspective view of a milling cutter of the prior art;

Fig. 2 is a rough end-view of the milling cutter that is removed of part shown in Figure 1;

Fig. 3 is the view of the present invention similar in appearance to Fig. 2;

Fig. 4 is mounted in an insert chip front view in the milling cutter shown in Figure 3;

Fig. 5 is a partial side view along the direction of the arrow T among Fig. 3;

Fig. 6 is the longitudinal section according to a present insert chip of the present invention;

Fig. 7 is the side view of a hold-down screw using in the present invention; With

Fig. 8 is the cutaway view of an insert chip, and wherein insert chip cavity has an alternative form.

The detailed description of the embodiment that the present invention is recommended

A rotary cutter as a milling cutter form is illustrated in Fig. 3-5.This cutter comprises a cramping body 22 with several circular spaced apart insert seats 24.Each insert seat 24 comprises stayed surface 32 and a upright abutment surface 33 of being made up of

mutual angle part

33A and 33B (see figure 4) after one.Indexable insert chip 26 with unshowned adjustable pad is installed at least one insert seat.Each insert chip 26 is indexable, comprising several selectable dispersion cutting edges.Insert chip 26 (and pad, if processed) is clamped on the corresponding position by the hold-down screw 28 that extends through the central through hole 29 of processing in insert chip 26 (and pad, if processed).Hold-down screw 28 contacts with threaded mounting hole 30 screw threads of processing on the support surface 32 of insert seat 24.

Hole 30 and support surface 32 non-perpendicular extensions separately.As shown in Figure 3, promptly hole 30 edge axis L separately place, and this axis L tilts with respect to the normal N of insert seating face 32, and axis L and normal N form a sharp angle.Like this arrangement angle α be for when axis L when screw 28 is sentenced direction of rotation R and is extended out, with a direction off-normal N away from center cutter, thus axis L and processing in the outer end 10 on a surface 36 of the recess 38 of each insert groove front distance D that is far longer than prior art at interval.One with illustrate with chain-dotted line in Fig. 3 along the directly vertical screw of the prior art 5 of normal N with surperficial 32, be used for the purpose of comparison.Therefore, we will know screw 28 than easier use of the prior art, make screw 28 more easily be screwed in and remove by the throw that uses relative broad range.

In addition, need not to change the direction of the through hole 29 of processing in insert chip, promptly need not the axis L in the hole that the front surface 40 with respect to insert chip tilts ' can reach this advantage.In addition, the same with prior art, through hole 29 can be about being orthogonal to the line symmetry of front surface 40.Has the preceding cavity 50 of amplification and the through hole 29 of back cavity 52 makes this symmetric arrangement become possibility by processing on the front surface 40 of insert chip (see figure 6) and back support surface 41.

Preceding cavity 50 forms by a wall, and the part of this wall support head of screw can for the mode of screw orientation with one at least, thereby screw axis A is not consistent with the axis L in hole 30, and promptly axis A and axis are in an angle L shaped.Therefore, the cross section that the retrieving head of preceding cavity 50 part should have a circle, this cross section is towards back cavity 52 be tapered (narrowing down).For example, the retrieving head part can be as Fig. 3, the sphere shown in 5 and 6, or the taper shape shown among Fig. 8 50 '.Used just in this, the expression of " conical surface " comprises a surface that comprises the part of a complete circle cone (being taper), and simultaneously similarly, " spherical surface " comprises a surface that comprises the part of a complete sphere.

Screw 28 has a head of screw 56 and an external screw thread body portion 58 that extends out from head of screw.Removed fully from installing hole 30 in order to change cutting insert chip requirement screw, so head of screw has a maximum cross section bigger than through hole 29.Screw is symmetric shape about a vertical central axis A of screw.Head of screw comprises a contacted outer surface of head of screw support section that is fit to preceding cavity 50.If this head of screw support section is conical, then head of screw will be contacting of Line To Line with it.If the head of screw support section is a sphere with radius identical with the spherical surface radius of head of screw 56, the contact of surface to the surface then will take place, if but radius is different, the contact of Line To Line then will take place.The contact of Line To Line (or surface to surface) will coaxial about screw axis (symmetry), and is 360 degree along this axis and takes place.Therefore, the power that is applied on the insert spare by screw will have a better stablizing effect.

We notice, there is no need globulate is done on the whole surface of screw, and a part that just will be wherein and the surface of cavity 50 are 360 and spend and contact.

The direction of screwed hole 30 is such, thereby makes the power that is applied on the insert spare by screw comprise direct sensing insert seating face 33A, (a plurality of) side component of 33B.Therefore, for example can be by what seen among Fig. 4, the screw of insertion is being applied to power F on the insert body on such direction, and this direction F that exerts all one's strength has the part 33A separately of direct sensing abutment surface, the side component F1 of 33B, F2.Those high stables that are used for anti-vibration and collide with that will form on insert chip with joint efforts that are the component of 360 degree contacts between the through hole of head of screw and insert chip influence.No matter whether obtain head of screw in the example of foregoing milling cutter or that be concerned about easily, of the present invention this has practicality on the one hand.That is to say that improved stability features can be used the insert chip of hold-down screw to use by all in rotation or static holder.

We will know that abutment surface can comprise the surface portion greater or less than.Abutment surface can be crooked to replace comprising planar section.

In order to hold screw 28 with respect to the inclination of inserting axis A ', the back cavity 52 of insert chip has the cross section that increases gradually towards support surface 41.Recommending the shape of back cavity is taper.

Hole 6 is possible by orientation like this, thereby angle α is positioned on the plane perpendicular to the rotating shaft of cutter 20, wherein the axis A of screw and the central axis A of insertion ' both is on a such plane.Yet, as shown in Figure 5, also possible machining hole like this, thereby make axis A and axis A ' one with respect to the rotation plane inclined on, that is to say that when when one is observed cutter perpendicular to the direction T of rotation, its axis A is with respect to the axis A ' acute angles beta that tilts.No matter two axis A, whether A ' is vertical or favour on the plane of rotation at one, when when the direction of a parallel rotary axes line is observed, insert chip and screw will present state as shown in Figure 3, and promptly axis L and A will tilt and form a distance D with respect to axis A '.Angle β (if) will be by such orientation, thereby when axis A when head of screw extends, make axis A be parallel to rotation and at off-axis A ' on the direction of active cutting edge 26A, as shown in Figure 5 at one.

We will know, the invention provides a more stable cutting insert chip, and make that hold-down screw is easier to be fixed by screwdriver.

Though insert chip is painted as support surface 41 is thereafter directly contacted with insert seating face 32, also a pad that is similar to Fig. 1 Intermediate gasket 4 can be installed between these surfaces.

Insert chip can be any desired shapes, as polygon or circle.

Though the present invention is illustrated with the embodiment that wherein recommends, the skilled worker in those prior art fields will know that under the condition that does not break away from the spirit and scope of the present invention the increase of specified otherwise, deletion, adjustment and replacement can not carried out.

Claims

1. cutter assembly comprises:

Tool-holder gripping member with an insert seat, described insert seat comprises an insert seating face, one of them threaded mounting hole extends with a direction that favours the plane of insert seating face;

A cutting insert chip that is installed in the insert seat, this blade has stayed surface behind front surface being parallel to the insert seating face and, this blade has a through hole and comprises a preceding cavity that is arranged in the front surface of insert chip, this through hole limits a central axis, before cavity limits by a wall, this wall screw support section has a circular cross section and is tapered towards back stayed surface at least; With

A hold-down screw that extends through described through hole, this screw comprises a threaded body part, the head of screw of an increasing simultaneously is placed in the described cavity, described head of screw comprises the outer surface of the part of a structure such as ball, this surface is 360 degree with the screw thread stayed surface of cavity wall and contacts, threaded body partly is threaded in the installing hole, head of screw and threaded body part are symmetric shape about the central axis of screw, the maximum cross section of head of screw is greater than the maximum cross section of through hole, and the central axis of screw and the central axis of through hole form an acute angle.

2. cutter assembly as claimed in claim 1 is characterized in that, wherein 360 degree contacts are coaxial with the screw support section of cavity wall.

3. cutter assembly as claimed in claim 1, it is characterized in that, wherein the insert seat also comprises one from the outward extending abutment surface of seating face, and threaded mounting hole is made screw apply the power with one towards the component of abutment surface on insert chip by so directed.

4. cutter assembly as claimed in claim 3 is characterized in that, wherein abutment surface comprises two parts that relative to each other are an angle, and described power has towards the component of described part separately.

5. cutter assembly as claimed in claim 1 is characterized in that, wherein the tool-holder gripping member limits a rotation, and the front surface of described blade is towards the direction of rotation of tool-holder gripping member.

6. cutter assembly as claimed in claim 5 is characterized in that, wherein the central axis of screw extends from screw on direction of rotation, and departs from the central axis of through hole along the direction away from rotation.

7. cutter assembly as claimed in claim 6 is characterized in that, wherein the central axis of screw extends from screw on direction of rotation, also departs from the central axis of through hole simultaneously along the additional directions of parallel rotary axes line.

8. cutter assembly as claimed in claim 7 is characterized in that wherein Fu Jia direction is also pointed to the cutting edge of insert chip.

9. cutter assembly as claimed in claim 1 is characterized in that, cavity after wherein through hole further comprises that is arranged on the stayed surface of back, and a cross section of this back cavity becomes big gradually along the direction away from preceding cavity.

10. cutter assembly as claimed in claim 9 is characterized in that, wherein the back cavity is tapered.

11. cutter assembly as claimed in claim 1 is characterized in that, wherein the back stayed surface of insert chip directly contacts with seating face.

12. cutter assembly as claimed in claim 1 is characterized in that, wherein the screw thread stayed surface of cavity wall is spherical.

13. cutter assembly as claimed in claim 1 is characterized in that, wherein the screw thread stayed surface of cavity wall is taper.

14. cutter assembly as claimed in claim 1 is characterized in that, wherein cuts insert chip and comprises that has the indexable insert chip that several can select the cutting edge that launches.

15. cutter assembly as claimed in claim 2 is characterized in that, wherein the tool-holder gripping member comprises a rotary body that limits a rotation; Several insert seats are formed on the periphery of rotary body and arrange at interval with a circular direction with respect to rotation, and simultaneously several cutting insert chips are installed on separately the insert seat; The seating face of each insert seat is towards the direction of rotation of rotary body; Each insert seat comprises the adjacent wall construction that is separated from each other; Wall construction is that benchmark extends from a position of the front of the outer circumferential insert seat separately of rotary body with the direction of rotation; The central axis of screw extends from insert chip at the central axis that the direction away from rotation departs from through hole separately.

16. a cutting insert chip is installed in the method in the insert seat of a tool-holder gripping member, this insert seat comprises an insert seating face, one of them threaded mounting hole extends with a direction that favours the plane of insert seating face; The cutting insert chip has stayed surface and a through hole that extends fully through insert chip after one, this through hole includes a preceding cavity that is arranged in the front surface of the insert chip opposite with the back stayed surface, should be limited by a wall by preceding cavity, this wall screw support section has a tapered circular cross section of stayed surface backward at least; The step that this method comprises is as follows:

A., a screw that comprises the head of screw of a threaded body part and an increasing is provided, this head of screw includes an outer surface with the part of the screw thread stayed surface contacting structure of cavity wall such as ball, and have the maximum cross section of a maximum cross section greater than through hole, this threaded body partly limits a central axis, and screw is symmetric shape about this central axis;

B. be parallel in the back surface-supported insert seat of insert seating face and place insert chip having direction; With

C. screw is inserted in the through hole, partly screw in threaded body in the installing hole simultaneously, head of screw in this increasing in place is placed in the cavity, outer surface by this head of screw is 360 degree with the screw thread stayed surface of cavity wall and contact, the central axis of screw along screw extend and with acute angle of central axis formation of through hole.

17. method as claimed in claim 16 is characterized in that, wherein the contacts of 360 degree in the screw-in process of the threaded body among step C part are with respect to the axis coaxle of screw.

18. method as claimed in claim 16 is characterized in that, wherein the tool-holder gripping member comprises a rotary body that limits a rotation; Be formed on rotary body periphery and with respect to rotation with spaced apart several insert seats of circular direction and on insert seat separately, install several the cutting insert chips; Seating face towards each insert seat of the direction of rotation of rotary body; Each insert seat comprises the adjacent wall construction that is separated from each other; This wall construction is that benchmark extends from a position of the front of the outer circumferential insert seat separately of rotary body with the direction of rotation; Wherein in the screw-in process of the threaded body in step C part, the central axis of the screw that extends from insert chip departs from the central axis of described through hole separately along the direction away from rotation.

19. Turable cutting insert chip, comprise a tool bodies with front side and rear side, with a front side that comprises a cutting blade structure of therefrom extending, surface-supported rear side after the qualification, one comprises respectively towards the preceding cavity of front side and rear side and the through hole of back cavity, should before cavity have one and have one towards the tapered circular cross section of stayed surface and this back cavity and become big cross section gradually towards stayed surface.

20. Turable cutting insert chip as claimed in claim 19 is characterized in that, wherein the shape of back cavity is tapered.

21. Turable cutting insert chip as claimed in claim 19 is characterized in that, wherein the shape of preceding cavity is spherical in shape.

22. Turable cutting insert chip as claimed in claim 19 is characterized in that, wherein the shape of preceding cavity is tapered.